Expression of a clostridial [FeFe]-hydrogenase in Chlamydomonas reinhardtii prolongs photo-production of hydrogen from water splitting

Abstract

The high oxygen (O2) sensitivity of green algal [FeFe]-hydrogenases is a significant limitation for the sustained production of hydrogen gas (H2) from photosynthetic water splitting. To address this limitation we replaced the native [FeFe]-hydrogenases with a more O2-tolerant clostridial [FeFe]-hydrogenase CaI in Chlamydomonas reinhardtii strain D66ΔHYD (hydA1−hydA2−) that contains insertionally inactivated [FeFe]-hydrogenases genes. Expression and translocation of CaI in D66ΔHYD led to the recovery of H2 photoproduction at ~20% of the rates of the wild-type parent strain D66. We show for the first time that a bacterial [FeFe]-hydrogenase can be expressed, localized and matured to a catalytically active form that couples to photosynthetic electron transport in the green alga C. reinhardtii. The lower rates of O2 inactivation of CaI led to more sustained H2 photoproduction when cultures were challenged with O2 or kept under prolonged illumination at solar intensities. These results provide new insights into the requisites for attaining photobiological H2 production from water splitting using a more O2-tolerant hydrogenase.